Multi-task SonoEyeNet: Detection of Fetal Standardized Planes Assisted by Generated Sonographer Attention Maps

Cai, Yifan; Sharma, Harshita; Chatelain, Pierre; Noble, J. Alison

doi:10.1007/978-3-030-00928-1_98

Cited by 40 publications

(36 citation statements)

References 13 publications

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“…By measuring different sonographer actions or tasks, we further aim to understand better several topics such as how to effectively and efficiently initially train sonographers, monitor learning progress, and enhance scanning workflow. Our data can also help design deep learning applications for assistive automation technology as described elsewhere 33 – 36 .…”

Section: Discussionmentioning

confidence: 99%

“…Previous work in ultrasound learning and workflow in non-obstetric ultrasound fields has resulted in the creation of automated algorithms to aid transducer guidance, automatic scanning, and image analysis 37 , 38 . In obstetrics, real-time automatic identification of standard planes may aid diagnosis and quality assurance 33 , 36 , 39 – 46 .…”

Section: Discussionmentioning

confidence: 99%

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Transforming obstetric ultrasound into data science using eye tracking, voice recording, transducer motion and ultrasound video

Drukker

Sharma

Droste

et al. 2021

Sci Rep

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Ultrasound is the primary modality for obstetric imaging and is highly sonographer dependent. Long training period, insufficient recruitment and poor retention of sonographers are among the global challenges in the expansion of ultrasound use. For the past several decades, technical advancements in clinical obstetric ultrasound scanning have largely concerned improving image quality and processing speed. By contrast, sonographers have been acquiring ultrasound images in a similar fashion for several decades. The PULSE (Perception Ultrasound by Learning Sonographer Experience) project is an interdisciplinary multi-modal imaging study aiming to offer clinical sonography insights and transform the process of obstetric ultrasound acquisition and image analysis by applying deep learning to large-scale multi-modal clinical data. A key novelty of the study is that we record full-length ultrasound video with concurrent tracking of the sonographer’s eyes, voice and the transducer while performing routine obstetric scans on pregnant women. We provide a detailed description of the novel acquisition system and illustrate how our data can be used to describe clinical ultrasound. Being able to measure different sonographer actions or model tasks will lead to a better understanding of several topics including how to effectively train new sonographers, monitor the learning progress, and enhance the scanning workflow of experts.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Transforming obstetric ultrasound into data science using eye tracking, voice recording, transducer motion and ultrasound video

Drukker

Sharma

Droste

et al. 2021

Sci Rep

Self Cite

View full text Add to dashboard Cite

show abstract

“…Each CB f,sz,st was parameterized by the shared filter size, kernel size and stride respectively. The VGG-16 like backbone, in this notation, is CB 64,3,2 -CB 128,3,2 -CB 256,3,2 -CB 512,3,2 -CB 512, 3,2 Epistemic and Aleatoric Uncertainties We can break down uncertainty estimates into uncertainty over the network weights (epistemic uncertainty) and irreducible uncertainties over the noise inherent in the data (aleatoric uncertainty) [11]. As training data size increases, in theory epistemic uncertainty converges to zero.…”

Section: Neural Network Architecturementioning

confidence: 99%

“…GA estimation based directly on image appearance would reduce the need for human interaction of automated biometry after image capture. Further, significant progress has been made in automatic plane finding [2,12], meaning that our algorithm might, in the future, be incorporated in a fully automated ultrasound-based GA estimation solution for minimally trained healthcare professional in a global health setting [23].…”

Section: Introductionmentioning

confidence: 99%

Calibrated Bayesian Neural Networks to Estimate Gestational Age and Its Uncertainty on Fetal Brain Ultrasound Images

Lee

Bradburn

Papageorghiou

et al. 2020

Medical Ultrasound, and Preterm, Perinatal and Paediatric Image Analysis

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We present an original automated framework for estimating gestational age (GA) from fetal ultrasound head biometry plane images. A novelty of our approach is the use of a Bayesian Neural Network (BNN), which quantifies uncertainty of the estimated GA. Knowledge of estimated uncertainty is useful in clinical decision-making, and is especially important in ultrasound image analysis where image appearance and quality can naturally vary a lot. A further novelty of our approach is that the neural network is not provided with images pixel size, thus making it rely on anatomical appearance characteristics and not size. We train the network using 9,299 scans from the INTERGROWTH-21st [22] dataset ranging from 14+0 weeks to 42+6 weeks GA. We achieve average RMSE and MAE of 9.6 and 12.5 days respectively over the GA range. We explore the robustness of the BNN architecture to invalid input images by testing with (i) a different dataset derived from routine anomaly scanning and (ii) scans of a different fetal anatomy.

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“…However, low image quality and shortage of experts can compromise screening efficacy or in the least make quality heterogeneous across sites. To democratize care, several efforts have been made to automate standard plane detection using deep learning [2,3,4,8]. However, many of these methods still rely on large amounts of labelled data.…”

Section: Introductionmentioning

confidence: 99%

Semi-supervised Learning of Fetal Anatomy from Ultrasound

Tan

Meng

et al. 2019

Lecture Notes in Computer Science

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Semi-supervised learning methods have achieved excellent performance on standard benchmark datasets using very few labelled images. Anatomy classification in fetal 2D ultrasound is an ideal problem setting to test whether these results translate to non-ideal data.Our results indicate that inclusion of a challenging background class can be detrimental and that semi-supervised learning mostly benefits classes that are already distinct, sometimes at the expense of more similar classes.

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Multi-task SonoEyeNet: Detection of Fetal Standardized Planes Assisted by Generated Sonographer Attention Maps

Cited by 40 publications

References 13 publications

Transforming obstetric ultrasound into data science using eye tracking, voice recording, transducer motion and ultrasound video

Transforming obstetric ultrasound into data science using eye tracking, voice recording, transducer motion and ultrasound video

Calibrated Bayesian Neural Networks to Estimate Gestational Age and Its Uncertainty on Fetal Brain Ultrasound Images

Semi-supervised Learning of Fetal Anatomy from Ultrasound

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